A1. A capacitor is a device that stores electrical energy in an electrostatic field.
Capacitance is the property of a circuit which opposes changes in voltage.
A2. They are polarized from positive to negative. They radiate from a charged particle in
straight lines and do not form closed loops. They have the ability to pass through any
known material. They have the ability to distort the orbits of electrons circling the
nucleus.
A3. Toward the positive charge.
A4. Two pieces of conducting material separated by an insulator.
A5. A farad is the unit of capacitance. A capacitor has a capacitance of 1 farad when a
difference of 1 volt will charge it with 1 coulomb of electrons.
A6. One microfarad equals 10-6 farad. One picofarad equals 10-12
farad.
A7. The area of the plates. The distance between the plates. The dielectric constant of
the material between the plates.
A8.

A9. Hysteresis. Dielectric leakage
A10. It is the maximum voltage the capacitor can work without risk of damage. 900 volts.
A11. When the capacitor is charging, electrons accumulate on the negative plate and leave
the positive plate until the charge on the capacitor is equal to the battery voltage. When
the capacitor is discharging, electrons flow from the negatively charged plate to the
positively charged plate until the charge on each plate is neutral.
A12. At the instant of the initiation of the action.
A13. Zero.
A14.
A15.
A16.
A17.
A18. Electrolytic capacitor. Trimmer capacitor
A19. 26 mF or 260,000 pF. 630 pF. 9600 pF.